7. In the modern world, humans are surrounded by EM radiations. The great scientist, transmit and detect EM waves. was the first man to investigate how to 8. In his experiment, a , two metal wires, which generated a spark in the gap between them. This spark resulted in the traveled through the air and created a spark in a metal coil located over a meter away. If an LED is placed in that gap, the bulb would have glowed. This experiment showed a clear case of EM wave, was applied to the two ends of of EM waves. Those EM waves and 9. James Clerk Maxwell (1831-1879) had laid out the foundations for EM radiation by formulating four mathematical equations called

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Electromagnetic Spectrum
1) https://youtu.be/1bpmI3wdqW8
2) https://youtu.be/FWCN_uI5ygY
3) https://youtu.be/ZaXm6wau-jc
4) https://youtu.be/W2VVoKArRcQ
5) https://youtu.be/GxAyRJjCAsQ

Transcribed Image Text:

7. In the modern world, humans are surrounded by EM radiations. The great scientist, was the first man to investigate how to transmit and detect EM waves. 8. In his experiment, a two metal wires, which generated a spark in the gap between them. This spark resulted in the traveled through the air and created a spark in a metal coil located over a meter away. If an LED is placed in that gap, the bulb would have glowed. This experiment showed a clear case of EM wave was applied to the two ends of of EM waves. Those EM waves and 9. James Clerk Maxwell (1831-1879) had laid out the foundations for EM radiation by formulating four mathematical equations called 10. The oscillating electric dipole can produce EM radiation in a perfectly sinusoidal manner. In this case, the. generate a varying magnetic field perpendicular to it. will automatically 11. The wave velocity is Based on this relationship, when frequency goes up, then the wavelength goes down. times